Solid Solution Domains at Phase Transition Front of LixNi0.5Mn1.5O4

Hideyuki Komatsu; Hajime Arai; Yukinori Koyama; Kenji Sato; Takeharu Kato; Ryuji Yoshida; Haruno Murayama; Ikuma Takahashi; Yuki Orikasa; Katsutoshi Fukuda; Tsukasa Hirayama; Yuichi Ikuhara; Yoshio Ukyo; Yoshiharu Uchimoto; Zempachi Ogumi

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Solid Solution Domains at Phase Transition Front of LixNi0.5Mn1.5O4

机译：LixNi0.5Mn1.5O4相变前沿的固溶域

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Nickel-substituted manganese spinel LiNi0.5Mn1.5O4 (LNMO) is a promising 5 V class positive electrode material for lithium-ion batteries. As micron-sized LNMO particles show high rate capability in its two-phase coexistence regions, the phase transition mechanism is of great interest in understanding the electrode behavior at high rates. Here, the phase transition dynamics of LixNi0.5Mn1.5O4 is elucidated on high rate charging–discharging using operando time-resolved X-ray diffraction (TR-XRD). The TR-XRD results indicate the existence of intermediate states, in addition to the thermodynamically stable phases, and it is shown that the origin of such intermediate states is ascribed to the solid-solution domains at the phase transition front, as supported by the analysis using transmission electron microscopy coupled with electron energy-loss spectroscopy. The phase transition pathways dependent on the reaction rate are shown, together with possible explanation for this unique transition behavior.

机译：镍取代锰尖晶石LiNi0.5Mn1.5O4（LNMO）是一种有前途的5 V级锂离子电池正极材料。由于微米级的LNMO颗粒在其两相共存区域中显示出高倍率性能，因此在了解高倍率电极行为方面，相变机制引起了人们的极大兴趣。在这里，使用操作时间分辨X射线衍射（TR-XRD）在高速率充放电条件下阐明了LixNi0.5Mn1.5O4的相变动力学。 TR-XRD结果表明，除了热力学稳定的相以外，还存在中间状态，并且分析表明，这种中间状态的起源是由于相变前沿的固溶域引起的。使用透射电子显微镜和电子能量损失光谱仪。显示了取决于反应速率的相变途径，以及对该独特转变行为的可能解释。

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来源
《Advanced energy materials》 |2015年第17期|1-7|共7页
作者
Hideyuki Komatsu; Hajime Arai; Yukinori Koyama; Kenji Sato; Takeharu Kato; Ryuji Yoshida; Haruno Murayama; Ikuma Takahashi; Yuki Orikasa; Katsutoshi Fukuda; Tsukasa Hirayama; Yuichi Ikuhara; Yoshio Ukyo; Yoshiharu Uchimoto; Zempachi Ogumi;
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作者单位

Office of Society-Academia Collaboration for Innovation Kyoto University Gokasho Uji Kyoto Japan;

Office of Society-Academia Collaboration for Innovation Kyoto University Gokasho Uji Kyoto Japan;

Office of Society-Academia Collaboration for Innovation Kyoto University Gokasho Uji Kyoto Japan;

Office of Society-Academia Collaboration for Innovation Kyoto University Gokasho Uji Kyoto Japan;

Nanostructures Research Laboratory Japan Fine Ceramics Center Atsuta-ku Nagoya Japan;

Nanostructures Research Laboratory Japan Fine Ceramics Center Atsuta-ku Nagoya Japan;

Office of Society-Academia Collaboration for Innovation Kyoto University Gokasho Uji Kyoto Japan;

Office of Society-Academia Collaboration for Innovation Kyoto University Gokasho Uji Kyoto Japan;

Graduate School of Human and Environmental Studies Kyoto University Sakyo-ku Kyoto Japan;

Office of Society-Academia Collaboration for Innovation Kyoto University Gokasho Uji Kyoto Japan;

Nanostructures Research Laboratory Japan Fine Ceramics Center Atsuta-ku Nagoya Japan;

Nanostructures Research Laboratory Japan Fine Ceramics Center Atsuta-ku Nagoya Japan;

Office of Society-Academia Collaboration for Innovation Kyoto University Gokasho Uji Kyoto Japan;

Graduate School of Human and Environmental Studies Kyoto University Sakyo-ku Kyoto Japan;

Office of Society-Academia Collaboration for Innovation Kyoto University Gokasho Uji Kyoto Japan;

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正文语种 eng
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关键词
high rate capability; LiNi0.5Mn1.5O4; lithium-ion batteries; phase transition; structure–property relationships;

机译：高倍率能力;LiNi0.5Mn1.5O4;锂离子电池;相变;结构性能关系;

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Solid Solution Domains at Phase Transition Front of LixNi0.5Mn1.5O4

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